Commit Graph
11 Commits
Author SHA1 Message Date
arcattackandClaude Fable 5 4e63a7b6c3 Heat: THE AUTHENTIC ELECTRICAL MODEL -- weapons recharge from generators (task #10)
Task #10 set out to fix "scrambled linked-sink routing"; a [heat-link] attach
log proved the routing was NEVER scrambled (every subsystem links its authored
condenser exactly; the "pools in Condenser1" read was the diagnostic-sampler
aliasing trap).  The real defect: emitter.cpp's local FUN_00417ab4 stub
returned NULL, so the whole electrical model was inert and the E7 force-charge
recharged every emitter in ONE frame (~0.3s cycle, 1501 fires/90s, ~1.7e9
heat/s -- the "runaway").

Landed authentically [T1: disasm + byte-verified constants]:
- Emitter ctor @004bb120: seekVoltage = authored fraction x generator
  ratedVoltage (10000); EC = energyTotal/(seekV^2 x 0.5); voltageScale@0x310 =
  (RechargeRate / -ln(1 - 1e-4 x seekV)) / EC -- charge reaches seekV[rec] in
  EXACTLY the authored RechargeRate (PPC 5s, ERL 4s, SRM 3s, ERM 2s) cold.
  Owner-flags ctor gate (the usual gotcha; the this-flags read never armed).
- PoweredSubsystem::ChargeTimeScale (@004b0d50, was a =1.0 stub): voltageScale
  x (1 + thermalResistivity x srcTempRise) -- hot generators charge slower.
  ("voltageScale is never read back" was wrong; corrected + swept.)
- TrackSeekVoltage @004ba838: charging I^2R -> the GENERATOR's pendingHeat
  (~3.5e8/full PPC charge) -- generators self-heat, conduct to their authored
  condensers, and throttle further charging.  The feedback economy closes.
- FailureHeat consumers found: this+0x184 == 2 gates BOTH weapon families
  (@004baa88 emitter: reset firing + hold charge 0; @004bbd36 ballistic:
  recoil=rechargeRate + alarm 7).  Emitter::GetFaultState un-stubbed.
- ProjectileWeaponSimulation @004bbd04 opens with call 0x4b0bd0 (disasm) --
  launchers now run the powered/heat step (their firing heat previously
  accumulated in pendingHeat forever).
- heat.cpp: per-instance BT_HEAT_LOG census (the old shared-static 1-Hz
  sampler aliased); [heat-link] attach log; the stolen-else Verify restored.

Verified live (120s max-rate autofire): PPC ~470-500 (was 55,000), bank
plateaus ~600 and sheds to ambient, generators 1100-1400, ERMLaser
self-regulates at the authored 2000 failure threshold (shutdown-cool-resume).

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-07-11 16:59:29 -05:00
arcattackandClaude Fable 5 4ed2bbc293 Heat: authentic 1e7-unit heat + the ambient radiator land (task #9)
- Emitters: heatPortion closed form = heatCostToFire x 1e7 x (charge/seekV)^2
  (PPC 1.1e8 -> +632K on its own sink); the missing projectile/missile heat
  adds (raw -- resources author pre-scaled 1e7 units).
- The bank's AMBIENT RADIATOR @4ae73c reconstructed (the system's ONLY heat
  exit; conductance x 0.1 x HeatSinkCount -- _DAT_004ae974 float80 = 0.1) +
  the link-attach guard corrected (skip = the 0xBBE bank, not Condenser; the
  inversion blocked condenser->bank links and closed the system).
- Constant corrections (all byte-verified float80s): coolant epsilons
  0.0025/0.003/1e-4 (was a single 1e-4 serving three sites);
  CoolantCapacityScale 0.05 (was 1.738).
- Verified: heat flows + exits; max-rate autofire overheats weapons into the
  authentic heatLoad range-cutout (thermal spam unsustainable by design).
- KNOWN REMAINING: linked-sink routing scrambled (heat pools in Condenser1;
  authored map says PPC->C4/C6) -- the heat-stream offset audit, filed.

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-07-11 16:21:37 -05:00
arcattackandClaude Fable 5 fd055281a8 Combat: THE AUTHENTIC DAMAGE ECONOMY -- authored per-weapon amounts through the real fire chain (task #8)
Three root causes, all fixed:
1. kDamageScale was 1.0 -- _DAT_004bafbc is an x87 float80 = 1e-7, cancelling
   the ctor's x1e7: damagePortion = authored DamageAmount x (charge/seekV)^2
   (closed form at fire time; madcat AC=25/LRM=50/ERLL=6, bhk1 PPC=12/SRM=35).
   The observed "0.25" was the degenerate EC=1 fallback, never authored data.
2. CheckFireEdge NaN latch: TriggerState carries ControlsButton INTS; the
   release value (-65) is a negative NaN.  The binary's x87 unordered compare
   read it as "released"; IEEE-correct float compares latched the edge
   detector shut after the first release -- the reason the emitter discharge
   chain NEVER fired in-game.  Fixed with bit-pattern sign compares.
3. The weapon-side submission LIVE: Emitter::FireWeapon fills damageData
   (amount + damageForce=target-muzzle [the gyro directional-bounce feed] +
   impact) -> MechWeapon::SendDamageMessage (@004b9728 real body) ->
   messmgr consolidation with per-weapon records + explosion bundling.
   The mech4 bring-up damage block + flat kShotDamage retired to diag hooks.
Bonus: LODReuseHysteresis 0.82 -> 0.33 (double misread).  Zone model
verified byte-exact (no change).  Solo end-to-end: 5-record volleys (2 PPC
+ 3 ERML with authored amounts), per-weapon zone granularity, explosions,
kill.  Heat stays bring-up scale pending the heat-calibration audit [T3].

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-07-11 15:32:24 -05:00
arcattackandClaude Fable 5 8ed6184d65 Combat: AUTHENTIC weapon groups -- streamed per-mech button bindings + the real fire chain (task #5)
The recovered system: fire channels = LBE4ControlsManager buttonGroups
(0x40/0x45/0x46/0x47); default groups = the per-mech type-6 controls-map
resource in BTL4.RES, installed by the T0 CreateStreamedMappings the port
already called -- it needed only the TriggerState attribute (id 0x13 PINNED
to the binary value; fireImpulse@0x31C is the binary's TriggerState) and an
input feed.  Keyboard/harness now push press/release edges into the button
groups; the gBT*Trigger bypasses, per-type keyboard split and 1,0 pulse
hack are retired -- weapons sharing a button fire TOGETHER (madcat Trigger
= 4 weapons).  Myomers @4b9550/@4b95b8 misattribution corrected (they are
MechWeapon ConfigureMappables/ChooseButton).  Verified 2-node: kill through
the authentic chain (12 hits vs ~36 pre-groups).  Config-mode session
(regrouping UI) = the remaining stage, KB-scoped.

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-07-11 13:06:29 -05:00
arcattackandClaude Fable 5 29035028fd Cross-pod beams: replicate emitter discharge via subsystem update records
User report: lasers only visible on the window firing them.  The peer's
replicant emitters never learned the master fired.

THE AUTHENTIC PIPE (decomp-verified):
- FUN_0041c350 (the "beam keepalive" ServiceDischarge/ContinueDischarge call)
  does TWO things: queue the LOCAL deferred beam-effect callback (@0x4bac0c)
  on the app+0x34 manager -- our per-weapon render walk already plays that
  role -- and set the subsystem DIRTY bit, which maps to the 2007 engine's
  updateModel / ForceUpdate().
- Replication rides SUBSYSTEM UPDATE RECORDS inside the mech's update message:
  the roster walk already hands the entity's stream to every subsystem's
  PerformAndWatch; Simulation::WriteSimulationUpdate serializes each requested
  updateModel bit; Entity::UpdateMessageHandler routes received records by
  subsystemID to the subsystem's ReadUpdateRecord.  All engine machinery --
  the missing pieces were the Emitter's serialize/apply pair + the triggers.

CORRECTIONS to the dormant task-33-era transcriptions (never exercised --
nothing ever set updateModel -- so the latent misreads never surfaced):
- The weapon-family VTABLE SLOT MAP was swapped: slot 6 = ReadUpdateRecord,
  7 = WriteUpdateRecord, 9 = TakeDamage (evidence: Mech hierarchy symmetry +
  body semantics; @004ba568 resolves an EntityID at rec+0x30 through the
  entity index -- record semantics, not Damage).  Renamed across MechWeapon /
  Emitter / ProjectileWeapon; the real Emitter::TakeDamage @004bafc8 is
  undecoded (inherits MechWeapon for now).
- Emitter/MechWeapon Write: `*record = 0x38/0x18` is the record LENGTH, not
  recordID; rec+0x30 is the TARGET's EntityID (GetEntityID()), not a colour --
  the old `CopyColor(targetEntity+0x184)` was also a databinding trap.
- OVERRIDE-SIGNATURE TRAP: the decls used each class's own shadowing
  UpdateRecord typedef as the param type, silently NOT overriding the engine
  virtual (the base ran instead; nothing would ever have serialized).
  Base-typed params (Simulation__UpdateRecord*), casts inside.
- Emitter::ReadUpdateRecord reconstructed (@004ba568): target EntityID resolve
  (drop unknown non-null targets), MechWeapon alarm apply chain, beam fields.
- ServiceDischarge/ContinueDischarge: ForceUpdate() per keepalive tick + one
  final record at beam end (turns the peer's beam off).
- Mech::DrawWeaponBeams extracted from the player-only drive block so the walk
  runs for REPLICANTS (+ per-mech gun-port cache -- the process-wide statics
  would have served the player's segment pointers as the replicant's muzzles).

VERIFIED 2-node: A fires 57 volleys -> 225 emitter records -> B applies all
225 -> B draws 414 beams (PPC blue / laser red, from A's replicant's own gun
ports).  Solo un-regressed (150 beams, kill chain, no crash).

Also preserved: the full Mech::WriteUpdateRecord @0x4a0c2c recovery
(reference/decomp/mech_writeupdate_004a0c2c.disasm.txt) with all 9 record
types decoded (pose/alarm/leg-state+heat with the body-channel write-through
re-sync, knockdown, death, impact, movementMode) -- transcription deferred;
it replicates remote knockdown/death/heat and was not needed for beams.

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-07-09 19:04:34 -05:00
arcattackandClaude Fable 5 14c0dd06f5 Three-trigger keyboard weapon groups: 1=lasers 2=PPCs 3=missiles (task #43)
Interim pod-like grouping ahead of the authentic ConfigureMappables/
ChooseButton mapper channels (decomp-anchored in open-questions):
- Three fire channels like three pod buttons: gBTWeaponTrigger (lasers,
  key 1 or SPACE), gBTPPCTrigger (PPCs, key 2), gBTMissileTrigger
  (missiles, key 3 or CTRL). Keyboard only per user (mouse buttons
  removed).
- EmitterSimulation picks its channel by classID (PPC 3028 vs Emitter
  3016); BT_AUTOFIRE holds all three.
- The BT_BEAM_LOG sampler modulus 30 aliased to ONE weapon under the
  new synchronized 5-beam volleys (5 | 30) -> 31 (coprime).

Verified: all 5 energy weapons fire (31 samples each), aimed hits land,
kill completes.

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-07-09 08:31:16 -05:00
arcattackandClaude Fable 5 c2f70f6348 Beams CUT on a destroyed target (the real FUN_0049fb54, was a mislabeled stub)
Answers "can I keep targeting the dead mech?": the lock isn't cleared by
anything we've found, but the binary REFUSES to sustain energy beams on a
destroyed mech: ServiceDischarge (@004ba8d0) and ContinueDischarge (@004baa20)
check the beam's target EVERY discharge frame -- IsDerivedFrom(Mech) then
Mech::IsDestroyed (FUN_0049fb54 = movementMode 2||9) -- and kill the beam the
moment it dies.  EmitterSimulation (@004baa88) applies the same check to the
OWNER (a dead mech's own weapons drop everything).

Our recon had FUN_0049fb54 as a mislabeled "cockpit/HUD query" no-op stub
called with NULL, and never set the beam's target (0x474) at fire -- all three
authentic gates were dead.  Now: FireWeapon stashes the owner's target entity;
both discharge paths + the owner gate run the real check (BTMechDestroyed).

Verified: 40 beam samples before the kill, 0 after -- lasers flash-fail on the
wreck instead of cutting it like butter (heat is still spent per the binary's
FireWeapon, which fires blind; only the DISCHARGE checks the corpse).

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-07-08 18:46:08 -05:00
arcattackandClaude Opus 4.8 070af409f7 gauge wave P1a: publish heat/power/weapon attributes + radar zoom
The gauge-databinding-map workflow found most cockpit gauges resolve NULL
because the reconstructed subsystems publish only a fraction of the attributes
the config binds.  First publishing batch (attribute tables are read-only static
data; ids kept a dense prefix from each parent's NextAttributeID):

- HeatSink table dense-append: DegradationTemperature/FailureTemperature (the
  condenser temp-bar warn/max endpoints -- were NULL, so the two-part bars could
  not scale), NormalizedPressure/DegradationPressure/CoolantMassLeakRate, and the
  HeatSink link.  Condenser/Reservoir inherit this -> all 6 condenser temp bars
  now resolve current/warn/max (verified: BT_GAUGE_ATTR_LOG all OK).
- PoweredSubsystem::GetAttributeIndex() (new) publishes InputVoltage->voltageSource
  -- the cluster power-branch gate (the power-lamp/generator-voltage/state-lamp
  sub-branch is skipped when it resolves NULL).  Flows to Sensor/Myomers/weapons.
- MechWeapon::GetAttributeIndex() (new) publishes OutputVoltage/PercentDone->
  rechargeLevel; Emitter/PPC/ProjectileWeapon/MissileLauncher/GaussRifle DefaultData
  re-pointed at it (they carried an EMPTY default-constructed index -> resolved
  NOTHING).  Verified: the ER MED LASER / PPC / STREAK weapon clusters now render
  live recharge dials (were blank TEMP/STATUS).
- Mech::SetTargetRange un-stubbed (radarRange = range) -> the radar map scale +
  overlay range readout track the mapper's zoom (was frozen at 1000).
- GAUGREND ParseAttribute: env-gated per-binding resolution trace (BT_GAUGE_ATTR_LOG)
  -- durable diagnostic infra for the wave.

Verified DBASE+dev gauges: no startup/gauge-construction crash (dense chain intact),
combat un-regressed (TARGET DESTROYED), clusters build with InputVoltage resolving.
Remaining config-binding NULLs: HeatSink/AmbientTemperature (aggregate bank, P3) +
Searchlight/LightOn (P1b).

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-07-07 16:22:45 -05:00
arcattackandClaude Opus 4.8 9d82be46a1 P7: subsystem-tree alarm unification -- the whole PoweredSubsystem weapon/power subtree is byte-exact
The reconstruction modeled the binary's 0x54 AlarmIndicator (FUN_0041b9ec) with undersized
stand-ins (AlarmIndicator==ReconAlarm==4B; HeatAlarm==8B) across the entire subsystem tree, so
every field above an alarm sat at the wrong compiled offset.  Retype every such stand-in to
GaugeAlarm54(0x54) and de-phantom each class against its ctor, so the whole PoweredSubsystem
subtree becomes byte-exact.  An 8-agent read-only decomp-mapping workflow decoded every ctor
first; then hands-on implementation.  static_assert-locked chain (verified vs the raw ctors):

  HeatSink 0x1D0
   -> PoweredSubsystem 0x31C   retype electricalStateAlarm@0x264 + modeAlarm@0x2B8   @004b0f74
   -> MechWeapon      0x3F0   retype weaponAlarm@0x350; delete 5 phantom tail fields  @004b99a8
   -> Emitter         0x478   delete outputVoltage/beamLengthRatio/firingArmed aliases
                              + beamHit*/beamColor/beamHitData/energyRampTime phantoms;
                              retype beamOrientation EulerAngles->Quaternion(16B)       @004bb120
   -> PPC             0x478   (no own fields)                                           @004bb888
  PoweredSubsystem -> Sensor  0x328   (no alarm; 3 own fields)                          @004b1d18
  PoweredSubsystem -> Myomers 0x358   (no alarm)                                        @004b8fec

New systemic bug-class instances fixed (added to the CLAUDE.md checklist):
  * alias field    - Emitter outputVoltage==inherited rechargeLevel@0x320; beamLengthRatio==
                     beamScale.z@0x434; firingArmed==inherited useConfiguredPip@0x3E0
  * phantom field  - MechWeapon segmentReference/pipSegment/hasTarget/targetPoint/muzzlePoint
                     (past 0x3F0); Emitter beamHitPoint/beamImpact/beamImpactScalar/beamColor/
                     beamHitData/energyRampTime (binary writes inherited damageData/voltageScale
                     or the value is a method local)

Non-layout fixes required in the same wave:
  * outputVoltage->rechargeLevel also in the compiled GAUSS.CPP:74/93 (external readers of the
    removed Emitter field -- must grep EVERY TU, not just the class's own .cpp)
  * MechWeapon::GetMuzzlePoint reimplemented faithfully (removed muzzlePoint collided with
    Emitter's own fields at 0x3F0) via a BTResolveWeaponMuzzle void* bridge in mech4.cpp,
    resolving the weapon's mount segment (inherited this+0xdc) through the owner segment table
  * DetachFromVoltageSource fixed to set electricalStateAlarm not modeAlarm (raw @004b0e30
    writes the 0x264 alarm)

The vehicleSubSystems aux-screen gauge raw reads (btl4gau2.cpp:868/952 at subsystem+0x2b8/+0x278)
and the Sensor RadarPercent path now read the CORRECT byte offsets (garbage under the short layout).

Verified: combat DESTROYED-in-8, 28 shots, 0 crashes, heat heatEnergy=1.34e7, every static_assert
lock passes, heapcheck-clean through construction (the phase the isolated PoweredSubsystem retype
had overflowed).  LESSON: a factory-bridge runtime Check(sizeof<=alloc) does NOT fail the build --
only a static_assert sizeof lock catches alloc overflow at compile time.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-07-07 11:49:58 -05:00
arcattackandClaude Opus 4.8 1356870e56 P7: byte-exact re-base of the CORE heat leaf (HeatSink/Condenser/Reservoir/Generator/Myomers)
The reconstruction modeled the binary's shared alarm/connection types with undersized
stand-ins, sliding every field above them low (the 72-byte auxScreenNumber gap). Fix the
foundational heat-leaf classes byte-exact + static_assert-lock them, from the ctor decomp:

Shared types corrected:
  * SubsystemConnection 4 -> 0xC  (binary link node FUN_004af9cf; FUN_00417ab4 derefs +8)
  * GaugeAlarm54 = 0x54           (real AlarmIndicator FUN_0041b9ec; STATUS level at +0x14,
                                   so subsystem+0x184 == heatAlarm+0x14 == GetLevel())
    WatcherGaugeAlarm now typedefs GaugeAlarm54 (Watcher branch locks stay valid).

Byte-exact + locked (ctor-verified):
  * HeatSink   heatEnergy@0x158 linkedSinks@0x164 heatAlarm@0x170 resource@0x1C4
               pendingHeat@0x1C8, sizeof 0x1D0  (@004adda0)
  * Condenser  valveState@0x1D0 condenserAlarm@0x1DC  (@004ae568)
  * Reservoir  reservoirAlarm@0x1D0 ... squirtEfficiency@0x22C, sizeof 0x230  (@4aef78)
  * Generator  stateAlarm@0x1FC, sizeof 0x250  (@004b225c)
  * Myomers    phantom moverConnection tail removed (fits 0x358)

Three systemic bug classes fixed (added to the checklist in CLAUDE.md / HARD_PROBLEMS.md):
  * alias field    - a subclass member re-declaring an inherited slot the ctor reuses
                     (Condenser refrigerationOutput==massScale@0x160; Reservoir
                     coolantCapacity==thermalCapacity@0x128) -> use the inherited name
  * alarm-interior - a value read at alarm+0x14 modeled as a separate member
                     (HeatSink heatState@0x184, Reservoir injectActive@0x1e4)
                     -> route to alarm.GetLevel()
  * phantom field  - a member past the object end (Generator shortFlag@0x25C is really
                     *(owner+0x190)+0x25c the msg-manager, @004b0efc; Myomers
                     moverConnection@0x110 a write-only base slot) -> remove it

Heat conduction now reads the REAL heatEnergy=1.34e7 (not garbage); combat DESTROYED-in-8,
0 crashes, heapcheck-clean through construction.

REMAINING (measured; a distinct larger task): making PoweredSubsystem byte-exact grows it
+0x98 and cascades into MechWeapon/Emitter/PPC/Sensor/Myomers -- all model the 0x54
AlarmIndicator with 4-byte ReconAlarm / 8-byte HeatAlarm stand-ins and are short +
phantom-tailed; retyping without byte-exacting them overflows the Emitter alloc (heap
corruption). PoweredSubsystem kept on HeatAlarm(8) stand-ins (marked) pending a
subsystem-tree ALARM UNIFICATION. See docs/HARD_PROBLEMS.md P7.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-07-07 09:47:37 -05:00
arcattackandClaude Opus 4.8 7b7d465e5e Initial commit: bt411 -- standalone Windows BattleTech (Tesla 4.10 port)
Clean, self-contained extraction of the BattleTech-specific work from the
reverse-engineering workspace -- engine + game + content + build, with nothing
from Red Planet or the raw archive dumps. Builds green (Win32) and runs the
single-player drive->animate->target->fire->damage->destroy loop out of the box.

Layout:
  engine/   MUNGA + MUNGA_L4 shared 2007 engine, carrying our BT render/loader
            work (bgfload/L4D3D/L4VIDEO: BSL bit-slice decode, LOD/ground/shadow
            models) + image codec; the minimal rp/ headers the audio HAL needs
  game/     reconstructed BT logic + surviving-original BT source + fwd shims
            + WinMain launcher
  content/  full runtime tree (BTL4.RES, VIDEO/, GAUGE/, AUDIO/, eggs, BTDPL.INI)
  docs/     format specs + reconstruction ledgers
  reference/ raw Ghidra pseudocode (recon source-of-truth) + decomp exporter
  tools/    MP console emulator + map/resource scanners

One top-level CMake builds munga_engine lib + bt410_l4 game lib + btl4.exe.
All paths relativized (186 fwd shims + ~437 CMake abs paths -> repo-relative);
DXSDK is the one external, overridable via -DDXSDK. Verified: builds to a
byte-identical 2.27MB exe and runs combat (TARGET DESTROYED, 0 crashes) against
the bundled content.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-07-05 21:03:40 -05:00